--
-- Testing indexes on on columnar tables.
--

CREATE SCHEMA columnar_indexes;
SET search_path tO columnar_indexes, public;

--
-- create index with the concurrent option. We should
-- error out during index creation.
-- https://github.com/citusdata/citus/issues/4599
--
create table t(a int, b int) using columnar;
create index CONCURRENTLY t_idx on t(a, b);
REINDEX INDEX CONCURRENTLY t_idx;
\d t
explain (COSTS OFF) insert into t values (1, 2);
insert into t values (1, 2);
SELECT * FROM t;

explain (COSTS OFF) insert into t values (1, 2);
insert into t values (3, 4);
SELECT * FROM t;

-- make sure that we test index scan
set columnar.enable_custom_scan to 'off';
set enable_seqscan to off;
set seq_page_cost TO 10000000;

CREATE table columnar_table (a INT, b int) USING columnar;

INSERT INTO columnar_table (a) VALUES (1), (1);
CREATE UNIQUE INDEX CONCURRENTLY ON columnar_table (a);

-- CONCURRENTLY should leave an invalid index behind
SELECT COUNT(*)=1 FROM pg_index WHERE indrelid = 'columnar_table'::regclass AND indisvalid = 'false';

INSERT INTO columnar_table (a) VALUES (1), (1);

REINDEX TABLE columnar_table;
-- index is still invalid since REINDEX error'ed out
SELECT COUNT(*)=1 FROM pg_index WHERE indrelid = 'columnar_table'::regclass AND indisvalid = 'false';

TRUNCATE columnar_table;
REINDEX TABLE columnar_table;

-- now it should be valid
SELECT COUNT(*)=0 FROM pg_index WHERE indrelid = 'columnar_table'::regclass AND indisvalid = 'false';

DROP INDEX columnar_table_a_idx;

INSERT INTO columnar_table (a, b) SELECT i,i*2 FROM generate_series(0, 16000) i;

-- unique --
BEGIN;
  INSERT INTO columnar_table VALUES (100000000);
  SAVEPOINT s1;
  -- errors out due to unflushed data in upper transaction
  CREATE UNIQUE INDEX ON columnar_table (a);
ROLLBACK;

CREATE UNIQUE INDEX CONCURRENTLY ON columnar_table (a);

BEGIN;
  INSERT INTO columnar_table VALUES (16050);
  SAVEPOINT s1;
  -- index scan errors out due to unflushed data in upper transaction
  SELECT a FROM columnar_table WHERE a = 16050;
ROLLBACK;

EXPLAIN (COSTS OFF) SELECT * FROM columnar_table WHERE a=6456;
EXPLAIN (COSTS OFF) SELECT a FROM columnar_table WHERE a=6456;
SELECT (SELECT a FROM columnar_table WHERE a=6456 limit 1)=6456;
SELECT (SELECT b FROM columnar_table WHERE a=6456 limit 1)=6456*2;

-- even if a=16050 doesn't exist, we try to insert it twice so this should error out
INSERT INTO columnar_table VALUES (16050), (16050);

-- should work
INSERT INTO columnar_table VALUES (16050);

-- check edge cases around stripe boundaries, error out
INSERT INTO columnar_table VALUES (16050);
INSERT INTO columnar_table VALUES (15999);

DROP INDEX columnar_table_a_idx;

CREATE TABLE partial_unique_idx_test (a INT, b INT) USING columnar;
CREATE UNIQUE INDEX ON partial_unique_idx_test (a)
WHERE b > 500;

-- should work since b =< 500 and our partial index doesn't check this interval
INSERT INTO partial_unique_idx_test VALUES (1, 2), (1, 2);

-- should work since our partial index wouldn't cover the tuples that we inserted above
INSERT INTO partial_unique_idx_test VALUES (1, 800);

INSERT INTO partial_unique_idx_test VALUES (4, 600);

-- should error out due to (4, 600)
INSERT INTO partial_unique_idx_test VALUES (4, 700);

-- btree --
CREATE INDEX CONCURRENTLY ON columnar_table (a);
SELECT (SELECT SUM(b) FROM columnar_table WHERE a>700 and a<965)=439560;

CREATE INDEX ON columnar_table (b)
WHERE (b > 30000 AND b < 33000);

-- partial index should be way smaller than the non-partial index
SELECT pg_total_relation_size('columnar_table_b_idx') * 5 <
       pg_total_relation_size('columnar_table_a_idx');

-- can't use index scan due to partial index boundaries
EXPLAIN (COSTS OFF) SELECT b FROM columnar_table WHERE b = 30000;
-- can use index scan
EXPLAIN (COSTS OFF) SELECT b FROM columnar_table WHERE b = 30001;

-- some more rows
INSERT INTO columnar_table (a, b) SELECT i,i*2 FROM generate_series(16000, 17000) i;

DROP INDEX CONCURRENTLY columnar_table_a_idx;
TRUNCATE columnar_table;

-- pkey --
INSERT INTO columnar_table (a, b) SELECT i,i*2 FROM generate_series(16000, 16499) i;
ALTER TABLE columnar_table ADD PRIMARY KEY (a);
INSERT INTO columnar_table (a, b) SELECT i,i*2 FROM generate_series(16500, 17000) i;

BEGIN;
  INSERT INTO columnar_table (a) SELECT 1;
ROLLBACK;

-- should work
INSERT INTO columnar_table (a) SELECT 1;

-- error out
INSERT INTO columnar_table VALUES (16100), (16101);
INSERT INTO columnar_table VALUES (16999);

BEGIN;
  REINDEX INDEX columnar_table_pkey;
  -- should error even after reindex
  INSERT INTO columnar_table VALUES (16999);
ROLLBACK;

VACUUM FULL columnar_table;

-- show that we don't support clustering columnar tables using indexes
CLUSTER columnar_table USING columnar_table_pkey;

ALTER TABLE columnar_table CLUSTER ON columnar_table_pkey;
CLUSTER columnar_table;

-- should error even after vacuum
INSERT INTO columnar_table VALUES (16999);

TRUNCATE columnar_table;
INSERT INTO columnar_table (a, b) SELECT i,i*2 FROM generate_series(1, 160000) i;
SELECT (SELECT b FROM columnar_table WHERE a = 150000)=300000;

-- Since our index is highly correlated with the relation itself, we should
-- de-serialize each chunk group only once. For this reason, if this test
-- file hangs on below queries, then you should think that we are not properly
-- caching the last-read chunk group during index reads.
SELECT SUM(a)=312487500 FROM columnar_table WHERE a < 25000;
SELECT SUM(a)=167000 FROM columnar_table WHERE a = 16000 OR a = 151000;
SELECT SUM(a)=48000 FROM columnar_table WHERE a = 16000 OR a = 32000;

TRUNCATE columnar_table;
ALTER TABLE columnar_table DROP CONSTRAINT columnar_table_pkey;

-- hash --
INSERT INTO columnar_table (a, b) SELECT i*2,i FROM generate_series(1, 8000) i;
CREATE INDEX hash_idx ON columnar_table USING HASH (b);

BEGIN;
  CREATE INDEX hash_idx_fill_factor ON columnar_table USING HASH (b) WITH (fillfactor=10);
  -- same hash index with lower fillfactor should be way bigger
  SELECT pg_total_relation_size ('hash_idx_fill_factor') >
         pg_total_relation_size ('hash_idx') * 5;
ROLLBACK;

BEGIN;
  INSERT INTO columnar_table (a, b) SELECT i*3,i FROM generate_series(1, 8000) i;
ROLLBACK;

INSERT INTO columnar_table (a, b) SELECT i*4,i FROM generate_series(1, 8000) i;

SELECT SUM(a)=42000 FROM columnar_table WHERE b = 7000;

BEGIN;
  REINDEX TABLE columnar_table;
  SELECT SUM(a)=42000 FROM columnar_table WHERE b = 7000;
ROLLBACK;

VACUUM FULL columnar_table;
SELECT SUM(a)=42000 FROM columnar_table WHERE b = 7000;

-- exclusion contraints --
CREATE TABLE exclusion_test (c1 INT,c2 INT, c3 INT, c4 BOX,
EXCLUDE USING btree (c1 WITH =) INCLUDE(c3,c4) WHERE (c1 < 10)) USING columnar;

-- error out since "c1" is "1" for all rows to be inserted
INSERT INTO exclusion_test SELECT 1, 2, 3*x, BOX('4,4,4,4') FROM generate_series(1,3) AS x;

BEGIN;
  INSERT INTO exclusion_test SELECT x, 2, 3*x, BOX('4,4,4,4') FROM generate_series(1,3) AS x;
ROLLBACK;

-- should work
INSERT INTO exclusion_test SELECT x, 2, 3*x, BOX('4,4,4,4') FROM generate_series(1,3) AS x;

INSERT INTO exclusion_test SELECT x, 2, 3*x, BOX('4,4,4,4') FROM generate_series(10,15) AS x;

BEGIN;
  -- should work thanks to "where" clause in exclusion constraint
  INSERT INTO exclusion_test SELECT x, 2, 3*x, BOX('4,4,4,4') FROM generate_series(10,15) AS x;
ROLLBACK;

REINDEX TABLE exclusion_test;
-- should still work after reindex
INSERT INTO exclusion_test SELECT x, 2, 3*x, BOX('4,4,4,4') FROM generate_series(10,15) AS x;

-- make sure that we respect INCLUDE syntax --

CREATE TABLE include_test (a INT, b BIGINT, c BIGINT, d BIGINT) USING columnar;

INSERT INTO include_test SELECT i, i, i, i FROM generate_series (1, 1000) i;

CREATE UNIQUE INDEX CONCURRENTLY unique_a ON include_test (a);

-- cannot use index only scan
EXPLAIN (COSTS OFF) SELECT b FROM include_test WHERE a = 500;

CREATE UNIQUE INDEX unique_a_include_b_c_d ON include_test (a) INCLUDE(b, c, d);

-- same unique index that includes other columns should be way bigger
SELECT pg_total_relation_size ('unique_a') * 1.5 <
       pg_total_relation_size ('unique_a_include_b_c_d');

DROP INDEX unique_a;

-- should use index only scan since unique_a_include_b_c_d includes column "b" too
EXPLAIN (COSTS OFF) SELECT b FROM include_test WHERE a = 500;

BEGIN;
  SET enable_indexonlyscan = OFF;
  -- show that we respect enable_indexonlyscan GUC
  EXPLAIN (COSTS OFF) SELECT b FROM include_test WHERE a = 500;
ROLLBACK;

-- make sure that we read the correct value for "b" when doing index only scan
SELECT b=980 FROM include_test WHERE a = 980;

-- unsupported index types --

-- gin --
CREATE TABLE testjsonb (j JSONB) USING columnar;
INSERT INTO testjsonb SELECT CAST('{"f1" : ' ||'"'|| i*4 ||'", ' || '"f2" : '||'"'|| i*10 ||'"}' AS JSON) FROM generate_series(1,10) i;
CREATE INDEX jidx ON testjsonb USING GIN (j);
INSERT INTO testjsonb SELECT CAST('{"f1" : ' ||'"'|| i*4 ||'", ' || '"f2" : '||'"'|| i*10 ||'"}' AS JSON) FROM generate_series(15,20) i;

-- gist --
CREATE TABLE gist_point_tbl(id INT4, p POINT) USING columnar;
INSERT INTO gist_point_tbl (id, p) SELECT g, point(g*10, g*10) FROM generate_series(1, 10) g;
CREATE INDEX gist_pointidx ON gist_point_tbl USING gist(p);
INSERT INTO gist_point_tbl (id, p) SELECT g, point(g*10, g*10) FROM generate_series(10, 20) g;

-- sp gist --
CREATE TABLE box_temp (f1 box) USING columnar;
INSERT INTO box_temp SELECT box(point(i, i), point(i * 2, i * 2)) FROM generate_series(1, 10) AS i;
CREATE INDEX CONCURRENTLY box_spgist ON box_temp USING spgist (f1);

-- CONCURRENTLY should not leave an invalid index behind
SELECT COUNT(*)=0 FROM pg_index WHERE indrelid = 'box_temp'::regclass AND indisvalid = 'false';

INSERT INTO box_temp SELECT box(point(i, i), point(i * 2, i * 2)) FROM generate_series(1, 10) AS i;

-- brin --
CREATE TABLE brin_summarize (value int) USING columnar;
CREATE INDEX brin_summarize_idx ON brin_summarize USING brin (value) WITH (pages_per_range=2);

-- Show that we safely fallback to serial index build.
CREATE TABLE parallel_scan_test(a int) USING columnar WITH ( parallel_workers = 2 );
INSERT INTO parallel_scan_test SELECT i FROM generate_series(1,10) i;
CREATE INDEX ON parallel_scan_test (a);
VACUUM FULL parallel_scan_test;
REINDEX TABLE parallel_scan_test;
CREATE INDEX CONCURRENTLY ON parallel_scan_test (a);
REINDEX TABLE CONCURRENTLY parallel_scan_test;

-- test with different data types & indexAM's --

CREATE TABLE hash_text(a INT, b TEXT) USING columnar;
INSERT INTO hash_text SELECT i, (i*2)::TEXT FROM generate_series(1, 10) i;

CREATE INDEX ON hash_text USING hash (b);

SELECT b FROM hash_text WHERE b='10';

CREATE TABLE hash_int(a INT, b TEXT) USING columnar;
INSERT INTO hash_int SELECT i, (i*3)::TEXT FROM generate_series(1, 10) i;

CREATE INDEX ON hash_int USING hash (a);

SELECT b='15' FROM hash_int WHERE a=5;

CREATE TABLE mixed_data_types (
  timestamp_col timestamp,
  box_col box,
  circle_col circle,
  float_col float,
  uuid_col uuid,
  text_col text,
  numeric_col numeric,
  PRIMARY KEY(timestamp_col, text_col)
) USING columnar;

INSERT INTO mixed_data_types
SELECT
  to_timestamp(i+36000),
  box(point(i, i+90)),
  circle(point(i*2, i*3), i*100),
  (i*1.2)::float,
  uuid_in(md5((i*10)::text || (i*15)::text)::cstring),
  (i*8)::text,
  (i*42)::numeric
FROM generate_series(1, 10) i;

SELECT text_col='64'
FROM mixed_data_types WHERE timestamp_col='1970-01-01 02:00:08';

SELECT uuid_col='298923c8-1900-45e9-1288-b430794814c4'
FROM mixed_data_types WHERE timestamp_col='1970-01-01 02:00:01';

CREATE INDEX hash_uuid ON mixed_data_types USING hash(uuid_col);

SELECT box_col=box(point(1, 91)) AND timestamp_col='1970-01-01 02:00:01'
FROM mixed_data_types WHERE uuid_col='298923c8-1900-45e9-1288-b430794814c4';

DROP INDEX hash_uuid;

CREATE INDEX btree_multi_numeric_text_timestamp
ON mixed_data_types (numeric_col, text_col, timestamp_col);

SELECT uuid_col='ab2481c9-f93d-0ed3-033a-3281d865ccb2'
FROM mixed_data_types
WHERE
  numeric_col >= 120 AND numeric_col <= 220 AND
  circle_col >= circle(point(7, 7), 350) AND
  float_col <= 5.0;

CREATE TABLE revisit_same_cgroup(a INT, b TEXT) USING columnar;
CREATE INDEX ON revisit_same_cgroup USING HASH (b);
INSERT INTO revisit_same_cgroup SELECT random()*500, (random()*500)::INT::TEXT FROM generate_series(1, 100000) i;

SELECT sum(a)>-1 FROM revisit_same_cgroup WHERE b = '1';

CREATE TABLE aborted_write_test (a INT PRIMARY KEY) USING columnar;
ALTER TABLE aborted_write_test SET (parallel_workers = 0);

INSERT INTO aborted_write_test VALUES (16999);
INSERT INTO aborted_write_test VALUES (16999);

-- since second INSERT already failed, should not throw a "duplicate key" error
REINDEX TABLE aborted_write_test;

BEGIN;
  ALTER TABLE columnar.stripe SET (autovacuum_enabled = false);
  ALTER TABLE columnar.chunk SET (autovacuum_enabled = false);
  ALTER TABLE columnar.chunk_group SET (autovacuum_enabled = false);

  DROP TABLE aborted_write_test;
  TRUNCATE columnar.stripe, columnar.chunk, columnar.chunk_group;

  CREATE TABLE aborted_write_test (a INT) USING columnar;

  SAVEPOINT svpt;
    INSERT INTO aborted_write_test SELECT i FROM generate_series(1, 2) i;
    -- force flush write state
    SELECT FROM aborted_write_test;
  ROLLBACK TO SAVEPOINT svpt;

  -- Already disabled autovacuum for all three metadata tables.
  -- Here we truncate columnar.chunk and columnar.chunk_group but not
  -- columnar.stripe to make sure that we properly handle dead tuples
  -- in columnar.stripe, i.e. stripe metadata entries for aborted
  -- transactions.
  TRUNCATE columnar.chunk, columnar.chunk_group;

  CREATE INDEX ON aborted_write_test (a);
ROLLBACK;

create table events (event_id bigserial, event_time timestamptz default now(), payload text) using columnar;
BEGIN;
  -- this wouldn't flush any data
  insert into events (payload) select 'hello-'||s from generate_series(1, 10) s;

  -- Since table is large enough, normally postgres would prefer using
  -- parallel workers when building the index.
  --
  -- However, before starting to build the index, we will first flush
  -- the writes of above INSERT and this would try to update the stripe
  -- reservation entry in columnar.stripe when doing that.
  --
  -- However, updating a tuple during a parallel operation is not allowed
  -- by postgres and throws an error. For this reason, here we don't expect
  -- following commnad to fail since we prevent using parallel workers for
  -- columnar tables.
  SET LOCAL min_parallel_table_scan_size = 1;
  SET LOCAL parallel_tuple_cost = 0;
  SET LOCAL max_parallel_workers = 4;
  SET LOCAL max_parallel_workers_per_gather = 4;
  create index on events (event_id);
COMMIT;

CREATE TABLE pending_index_scan(i INT UNIQUE) USING columnar;
BEGIN;
  INSERT INTO pending_index_scan SELECT generate_series(1,100);

  -- test index scan when there are pending writes
  SET LOCAL enable_seqscan TO OFF;
  SET LOCAL columnar.enable_custom_scan TO OFF;
  SELECT COUNT(*)=100 FROM pending_index_scan ;
COMMIT;

-- show that we don't flush single-tuple stripes due to aborted writes ...
create table uniq(i int unique) using columnar;

-- a) when table has a unique:
begin;
  insert into uniq select generate_series(1,100);
  -- i) abort before flushing
rollback;
insert into uniq select generate_series(1,100);

SELECT COUNT(*)=1 FROM columnar.stripe cs
WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);

TRUNCATE uniq;

begin;
  insert into uniq select generate_series(1,100);
  -- ii) abort after flushing
  SELECT count(*) FROM uniq;
rollback;
insert into uniq select generate_series(1,100);

SELECT COUNT(*)=1 FROM columnar.stripe cs
WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);

TRUNCATE uniq;

-- b) when table has a primary key:
begin;
  insert into uniq select generate_series(1,100);
  -- i) abort before flushing
rollback;
insert into uniq select generate_series(1,100);

SELECT COUNT(*)=1 FROM columnar.stripe cs
WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);

TRUNCATE uniq;

begin;
  insert into uniq select generate_series(1,100);
  -- ii) abort after flushing
  SELECT count(*) FROM uniq;
rollback;
insert into uniq select generate_series(1,100);

SELECT COUNT(*)=1 FROM columnar.stripe cs
WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);

TRUNCATE uniq;

begin;
  SAVEPOINT svpt;
    insert into uniq select generate_series(1,100);
  ROLLBACK TO SAVEPOINT svpt;

  -- Since we rollbacked the writes in the upper transaction, we don't need
  -- to flush pending writes for uniquenes check when inserting the same
  -- values. So the following insert should just work.
  insert into uniq select generate_series(1,100);

  -- didn't flush anything yet, but should see the in progress stripe-write
  SELECT stripe_num, first_row_number, row_count FROM columnar.stripe cs
  WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);
commit;

-- should have completed the stripe reservation
SELECT stripe_num, first_row_number, row_count FROM columnar.stripe cs
WHERE cs.storage_id = columnar_test_helpers.columnar_relation_storageid('columnar_indexes.uniq'::regclass);

TRUNCATE uniq;

begin;
    insert into uniq select generate_series(1,100);
    SAVEPOINT svpt;
  -- cannot verify unique constraint when there are pending writes in
  -- the upper transaction
  insert into uniq select generate_series(1,100);
rollback;

-- Show that we nicely ignore index deletion requests made to columnarAM.
--
-- An INSERT command might trigger index deletion if index already had dead
-- entries for the key we are about to insert.
-- There are two ways of index deletion:
--   a) simple deletion
--   b) bottom-up deletion (>= pg14)
--
-- Since columnar_index_fetch_tuple never sets all_dead to true, columnarAM
-- doesn't expect to receive simple deletion as we don't mark any index
-- entries as dead.
-- Otherwise, columnarAM would throw an error for all of below six test cases.
--
-- However, since columnarAM doesn't delete any dead entries via simple
-- deletion, postgres might ask for a more comprehensive deletion (bottom-up)
-- at some point when pg >= 14.
-- For this reason, all following six test cases would certainly trigger
-- bottom-up deletion. Show that we gracefully ignore such requests.
CREATE TABLE index_tuple_delete (a int UNIQUE) USING COLUMNAR;
ALTER TABLE index_tuple_delete SET (autovacuum_enabled = false);

BEGIN;
  -- i) rollback before flushing
	INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
ROLLBACK;

-- index deletion test-1
BEGIN;
  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
ROLLBACK;
COPY index_tuple_delete FROM PROGRAM 'seq 10000';

TRUNCATE index_tuple_delete;

BEGIN;
  -- ii) rollback after flushing
	INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
  SELECT SUM(a) > 0 FROM index_tuple_delete;
ROLLBACK;

-- index deletion test-2
BEGIN;
  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
ROLLBACK;
COPY index_tuple_delete FROM PROGRAM 'seq 10000';

TRUNCATE index_tuple_delete;

BEGIN;
  -- iii) rollback before flushing, use savepoint
  SAVEPOINT sp1;
	  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
  ROLLBACK TO sp1;

  -- index deletion test-3
  SAVEPOINT sp2;
    INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
  ROLLBACK TO sp2;
  COPY index_tuple_delete FROM PROGRAM 'seq 10000';
ROLLBACK;

-- index deletion test-4
BEGIN;
  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
ROLLBACK;
COPY index_tuple_delete FROM PROGRAM 'seq 10000';

TRUNCATE index_tuple_delete;

BEGIN;
  -- iv) rollback after flushing, use savepoint
  SAVEPOINT sp1;
	  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
    SELECT SUM(a) > 0 FROM index_tuple_delete;
  ROLLBACK TO sp1;

  -- index deletion test-5
  SAVEPOINT sp2;
    INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
  ROLLBACK TO sp2;
  COPY index_tuple_delete FROM PROGRAM 'seq 10000';
ROLLBACK;

-- index deletion test-6
BEGIN;
  INSERT INTO index_tuple_delete SELECT i FROM generate_series(0,10000)i;
ROLLBACK;
COPY index_tuple_delete FROM PROGRAM 'seq 10000';

-- gist exclusions
CREATE TABLE circles (
  c circle,
  EXCLUDE USING gist (c WITH &&)
);

-- first should succeed
INSERT INTO circles (c) VALUES (CIRCLE(POINT(1.2, 123.1), 10));
-- second should fail
INSERT INTO circles (c) VALUES (CIRCLE(POINT(1.2, 123.1), 10));

-- gist
CREATE TABLE circles_and_stuff (
  c circle,
  label text
) USING columnar;

CREATE INDEX gist_1 ON circles_and_stuff USING GIST (c);
INSERT INTO circles_and_stuff (c, label) VALUES (circle(point(4.2, 123.1), 10), 'hello');
INSERT INTO circles_and_stuff (c, label) VALUES (circle(point(1.2, 123.1), 10), 'world');
INSERT INTO circles_and_stuff (c, label) VALUES (circle(point(6.2, 123.1), 100), 'hello');

BEGIN;
  SET LOCAL columnar.enable_custom_scan TO 'OFF';
  SELECT columnar_test_helpers.uses_index_scan (
  $$
  SELECT * FROM circles_and_stuff WHERE c && CIRCLE(POINT(1.2, 123.1), 10);
  $$
  );
ROLLBACK;

BEGIN;
  SET LOCAL columnar.enable_custom_scan TO 'ON';
  SET LOCAL enable_indexscan TO 'OFF';
  SELECT columnar_test_helpers.uses_custom_scan (
    $$
    SELECT * FROM circles_and_stuff WHERE c && CIRCLE(POINT(1.2, 123.1), 10);
    $$
  );
ROLLBACK;

BEGIN;
  SET LOCAL columnar.enable_custom_scan TO 'OFF';
  SET LOCAL enable_indexscan TO 'ON';
  DELETE FROM circles_and_stuff WHERE label = 'hello';
  SELECT COUNT(*) FROM circles_and_stuff; -- should return 1
ROLLBACK;

CREATE TABLE test_cache (
  i INT, t TEXT
) USING columnar;
INSERT INTO test_cache SELECT generate_series(1, 100, 1) AS i, generate_series(1, 100, 1)::TEXT AS t;

SET columnar.enable_column_cache = 't';

CREATE INDEX ON test_cache (i);
-- should be true
SHOW columnar.enable_column_cache;

DROP TABLE test_cache;

SET client_min_messages TO WARNING;
DROP SCHEMA columnar_indexes CASCADE;
